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apple--containerization/Sources/Containerization/LinuxBridgedNetwork.swift
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chore: import upstream snapshot with attribution
2026-07-13 12:25:30 +08:00

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6.6 KiB
Swift

//===----------------------------------------------------------------------===//
// Copyright © 2026 Apple Inc. and the Containerization project authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// https://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//===----------------------------------------------------------------------===//
#if os(Linux)
import ContainerizationError
import ContainerizationExtras
import ContainerizationNetlink
import Crypto
import Foundation
/// A `Network` implementation backed by Linux TAP devices, optionally
/// enslaved to a pre-existing bridge. The bridge itself is **not** managed
/// by this type — callers own its creation, teardown, and any NAT/firewall
/// rules. This abstraction only handles per-VM TAP lifecycle and IPv4
/// address allocation within a configured subnet.
///
/// Mirrors the `VmnetNetwork` shape on macOS so the two backends are
/// interchangeable from a `LinuxContainer`/`Network` consumer's POV.
///
/// Requires `CAP_NET_ADMIN` for TAP creation and bridge enslavement.
public struct LinuxBridgedNetwork: Network {
/// The IPv4 subnet from which container interfaces are allocated.
public let subnet: CIDRv4
/// The default-route gateway for containers attached to this network.
public let ipv4Gateway: IPv4Address
/// Optional bridge name to enslave each created TAP to.
public let bridge: String?
/// MTU applied to every TAP this network creates.
public let mtu: UInt32
private var allocator: Allocator
private var taps: [String: TAPDevice]
/// Per-id rotating IPv4 allocator. Mirrors `VmnetNetwork.Allocator`
/// verbatim: lower bound = `subnet.lower + 2` (gateway = `lower + 1`,
/// network = `lower`), size = `upper - lower - 3` (broadcast = `upper`,
/// also reserved).
struct Allocator: Sendable {
private let addressAllocator: any AddressAllocator<UInt32>
private let cidr: CIDRv4
private var allocations: [String: UInt32]
init(cidr: CIDRv4) throws {
self.cidr = cidr
self.allocations = [:]
let span = cidr.upper.value - cidr.lower.value
guard span >= 4 else {
throw ContainerizationError(
.invalidArgument,
message: "subnet \(cidr) has no usable host addresses (need at least 4)"
)
}
let size = Int(span - 3)
self.addressAllocator = try UInt32.rotatingAllocator(
lower: cidr.lower.value + 2,
size: UInt32(size)
)
}
mutating func allocate(_ id: String) throws -> CIDRv4 {
if allocations[id] != nil {
throw ContainerizationError(
.exists,
message: "allocation with id \(id) already exists"
)
}
let index = try addressAllocator.allocate()
allocations[id] = index
return try CIDRv4(IPv4Address(index), prefix: cidr.prefix)
}
mutating func release(_ id: String) throws {
if let index = allocations[id] {
try addressAllocator.release(index)
allocations.removeValue(forKey: id)
}
}
}
/// Create a Linux bridged network.
///
/// - Parameters:
/// - subnet: The IPv4 subnet to allocate container addresses from.
/// - gateway: Default-route gateway IPv4. If nil, defaults to
/// `subnet.gateway` (= `lower + 1`).
/// - bridge: Existing bridge name to enslave each TAP to, or nil for
/// standalone TAPs. Validated at init time via netlink.
/// - mtu: MTU applied to every created TAP (default 1500).
public init(
subnet: CIDRv4,
gateway: IPv4Address? = nil,
bridge: String? = nil,
mtu: UInt32 = 1500
) throws {
self.subnet = subnet
self.ipv4Gateway = gateway ?? subnet.gateway
self.bridge = bridge
self.mtu = mtu
self.allocator = try Allocator(cidr: subnet)
self.taps = [:]
if let bridge {
// Validate via the public linkGet — empty result or netlink error
// means the bridge does not exist or is unreachable.
let session = try NetlinkSession(socket: DefaultNetlinkSocket())
do {
let links = try session.linkGet(interface: bridge)
guard !links.isEmpty else {
throw ContainerizationError(
.notFound,
message: "bridge \(bridge) not found"
)
}
} catch let err as ContainerizationError {
throw err
} catch {
throw ContainerizationError(
.notFound,
message: "bridge \(bridge) not found: \(error)"
)
}
}
}
public mutating func createInterface(_ id: String) throws -> Interface? {
let cidr = try allocator.allocate(id)
let tapName = Self.derivedTAPName(forID: id)
let device: TAPDevice
do {
device = try TAPDevice(
name: tapName,
bridge: bridge,
mtu: mtu,
macAddress: nil
)
} catch {
// Roll back the allocator so the IP isn't leaked.
try? allocator.release(id)
throw error
}
taps[id] = device
return TAPInterface(
tapName: device.name,
ipv4Address: cidr,
ipv4Gateway: ipv4Gateway,
macAddress: nil,
mtu: mtu
)
}
public mutating func releaseInterface(_ id: String) throws {
if let device = taps.removeValue(forKey: id) {
device.close()
}
try allocator.release(id)
}
/// Derive a deterministic, IFNAMSIZ-compliant TAP name from a container id.
/// Format: `czt-<10 hex chars>` (14 chars total; IFNAMSIZ-1 = 15).
static func derivedTAPName(forID id: String) -> String {
let hash = SHA256.hash(data: Data(id.utf8))
let hex = hash.map { String(format: "%02x", $0) }.joined()
return "czt-" + String(hex.prefix(10))
}
}
#endif